Solvent saver recovery apparatus



Jan. 30, 1951 a. F. DlNLEY SOLVENT SAVER RECOVERY APPARATUS 8 Sheets-Sheet 1 Filed Feb. 21, 194'? nvwavwx: U/uW/II'PE Pm/fly, BY (2421,41 W

A'I'TORNEYS.

1f 6 @jam Jan. 30, 1951 c. F. DINLEY SOLVENT SAVER RECOVERY APPARATUS 8 Sheets-Sheet 2 Filed Feb. 21, 1947 X g N 4.

N MQNRN INVENT 0R: 'lalelzcei'fizliiqq, BY W ATTORNEYS.

8 Sheets-Sheet 3 Q E ww C. F. DINLEY SOLVENT SAVER RECOVERY APPARATUS Jan. 30,' 1951 Filed Feb. 21. 1947 o o o o o o o o o o o o o o o o o 00 c o o o o o o o oo c o o o o o o o o o o o o o o o 000 o o o o o o o o o o o o o o o o oo ooonooooooooooooo Jan. 30, 1951 c. F. DINLEY 2,539,401

SOLVENT SAVER RECOVERY APPARATUS Filed Feb. 21. 1947 8 Sheets-Sheet 4 I L F WA TH? S01 VENT W! TN ESSES IN VEN TOR:

C. F. DINLEY 8 Sheets-Sheet 5 Jan. 30, 1951 SOLVENT SAVER RECOVERY APPARATUS Filed Feb. 21, 1947 Jan. 30, 1951 c. F. DINLEY SOLVENT SAVER RECOVERY APPARATUS 8 Sheets-Sheet 6 Filed Feb. 21, 1947 INVENTOR: /m'em'eifimig (M ATTORNEYS.

30, 19 51 c. F. DINLEY 2,539,407

SOLVENT SAVER RECOVERY APPARATUS Filed Feb. 21. 1947 a Shee ts-Sheet 7 w WI'I'NESSES & INVENTOR:

I z I BY tlal'ezzceifflz'lzigy, ATTORNEYS) Jan. 30, 1951 c. F. DINLEY SOLVENT SAVER FECOVERY APPARATUS 8 Sheets-Sheet 8 Filed Feb. 21, 1947 INVENTQR: Clam/Ire 01110. BY Gaul ATTORNEYS.

Patented Jan. 30, 1951 2,539,407 SOLVENT SAVER. RECOVERY APPARATUS Clarence F. Dinley, Detroit, Mich., assignor to Detrex Corporation, tion of Michigan Detroit, Mich., a corpora- Application February 21, 1947, Serial No. 730,179

8 Claims.

,My invention relates to apparatus for the recovery of volatile solvents from clothes or textile materials that have been treated with such solvents, or from any article or material that absorbs, or adsorbs, or retains the solvent. The invention is particularly useful for recovering dry-cleaning solvents such as carbon tetrachloride, trichlorethylene, or perchlorethylene, whose vapors are generally uninflammable, or any other volatile grease-removing solvents. It also permits of freeing clothes or fabrics of solvent odor remaining after solvent in them has been recovered as far as practicable. My invention is basically similar in construction and operation to the apparatus shown in my issued U. S. Patent No. 2,310,680 but is directed to certain improvements thereon. These improvements over my earlier invention pertain to simplification of structure, rearrangement of operating elements with increased operating efliciency, and other features as will become apparent from the following detailed description of one form of my invention.

As in my issued patent referred to above, I have hereinafter described and explained my invention with particular reference to the drycleaning of clothes or the like. In dry-cleaning clothes with volatile solvents, the clothes are agitated in a bath of the solvent to remove grease and dirt, and are then rapidly spun or centrifuged to expel as much as possible of the solvent. While the greater part of the solvent used is gotten out of the clothes and recovered in this manner, a substantial amount still remains; and it is therefore a common practice to hang the clothes in a place where a good air circulation is maintained until they are free of all apparent odor of the 'solvent. In this way, the entire amount of solvent left in the clothes after centrifuging is lost, amounting, ordinarily, to some to lbs. of solvent per 100 pounds of woolen goods treated, and to some 20 to 45 lbs. of soivent per 100 pounds of cotton goods, according to the duration and speed, etc., of the centrifuging.

It is this solvent remaining in the clothes after the dry-cleaning operation that I aim to recover, by means of an improved apparatus which I have devised for the purpose. In suitable forms, such as here shown and described, my invention permits of recovering as much as some 95% of the solvent remaining in the clothes when treated in my apparatus. The apparatus can be made simple, convenient, rapid, and economical in operation, and very efllcient in recovery of solvent, as well as rugged in construction and comparatively inexpensive to build.

In the accompanying drawings,

Fig. 1 shows the front elevation of a solvent recovering machine conveniently embodying the present improvements.

Fig. 2 is an elevation of the machine as it appears when viewed from the left of Fig. 1 with the corresponding side portion of its housing removed.

Fig. 3 is a similar illustration viewed looking toward the right of Fig. l with a portion of the corresponding side of its housing broken away. I

Fig. 4 is a staggered horizontal section of the machine taken as indicated by the angled-arrows IV--IV in Fig. 1.

Fig. 5 is a view partly in front elevation and partly in section taken as indicated by angled arrows VV in Fig. 2.

Fig. 6 is a fragmentary view in section taken as indicated by the angled-arrows VI-VI in Fig. 4.

Fig. 7 is a fragmentary view partly in elevation and partly in section taken as indicated by the angled-arrows VII-VII in Fig. 3.

Fig. 8 is a fragmentary view in rear elevation looking as indicated by the angled-arrows VIII- VIII in Fig. 2.

Fig. 9 is a. fragmentary sectional view taken as indicated by the angled-arrows IX-IX in Fig. 8.

Fig. 10 is a detail section showing the construction, taken as indicated by the angledarrows X-X in Fig. 4.

Fig. 11 is a fragmentary view partly in elevation and partly in section, taken as indicated by the angled-arrows XI-XI in Fig. 3.

Fig. 12 is a sectional view taken as indicated by the angled-arrows XII-XII in Fig. 11.

Fig. 13 is a fragmentary detail view taken as indicated by the angled-arrows XLIIXIII in Fig.4.

Fig. 14 is a fragmentary detail view drawn to a much larger scale and showing the construction at the region XIV in Fig. 13; and

Fig. 15 is a fragmentary view related to Figs. 5 and 6 showing a different position of the damper mechanism.

As herein illustrated, the improved solvent recovering machine of my invention has a skeleton framework, see Fig. 6, including a base I 5 and superstructure IS with complementarily inclined legs I! and transverse connecting bars l8. Mounted on the superstructure is a horizontal axis cyiindric drum casing I5 which encloses a rotary extractor drum of somewhat smaller diameter. Attached to the drum casing H3 at opposite sides are bracket projections 2| which are in vertical alignment with similar brackets 22 mounted on the superstructure l6 (Fig. 6), said bracket projections being apertured for passage of screw bolts 23 by which the drum casing |9 is secured in place. From Fig. 4 it will be observed that the drum casing I!) has an imperferate shell 25 with an outwardly projecting peripheral flange 28 and stiffening ring 21 which is welded or otherwise permanently attached to the back of said flange. At the rear, the drum casing I9 is closed by an inwardly dished discous wall 28 having a retroverted peripheral flange 28 which is secured along its bottom to the superstructure It of the machine framework by suitably spaced bolts shown at 3B in Figs. 6 and 9. At the front (Fig. 4) the drum casing I9 is closed by a discous face cover member 3| which with interposition of an annular gasket 32 is remov= ably secured in place by headed screws 33 where- I of the shanks threadedly engage into the flange 26 and its reinforcing ring 21. As shown, the face cover member 3| extends somewhat beyond the flange 26 all around, and is provided with a peripheral flange 35 whereof the upper half fits snugly under the front edge of a half round top component 36 of the machine housing, and whereof the lower half fits over a flange (not shown) extending about the leading edge of a circular cutout at the front end of the main component 31 of the machine housing. Screws indicated at 38 serve to secure the face cover member 3| to the machine housing at the regions of.

the flanges which are referred to. By means of other headed screws such as indicated at 39 in Fig. 7 passed through flanges .40 at the opposite sides of the housing component 36 into ledge members 4| projecting horizontally from the drum casing |9 at diametrically opposite points,

said components are removably incorporated in the structure. As shown in Fig. 4, the face cover member 3| of the drum casing H! has a central opening 42 with inwardly and outwardly projecting peripheral flanges 43 and 44 through which the drum is loaded in a manner later on explained. For the opening 42 I have provided a circular closure door 45 stiffened by circumferential flange 46 which latter is formed with an outward retroversion at 41 for lodgment of a ring gasket 48. When the door 45 is in closed position, the gasket 48 is compressed against the edge of the outwardly projecting flange 44 around the loading opening 42. The door 45 is supported with capacity for rotation about the head 43 of a screw stud 50 fulcrumed in the center boss 5| of a bridge bar 52 which, at one end, is hingedly connected at 53 to the outer face wall member 3| of the drum casing l9. At the opposite or swinging end of the bridge bar 52 is ful-' perforated as shown in Fig. 5, and made fast at its edges by rivets 6| to the front and the rear wall components 62 and 63 which are of cast metal. Between these front and rear wall components 82 and 63 extend tie rods 65 which are arranged at uniform intervals around said drum. Disposed over the rods 65 are lifter elements 65 in the form of strips fashioned to U-shaped cross sectional configuration from sheet metal with outwardly-extended foot flanges 6'5 which rest against the inner side of the shell 60 whereto they are secured by rivets indicated at 68 in Fig. 10. Over-laid upon the front sides (as considered with respect to the direction of drum rotation) and extended over the top of each lifter element 56 is a pad 69 of felt or the like which is enveloped by a hold down covering fabric strip Iii, the latter being secured in place with the pad by a lacing cord II which is alternately passed through registering holes respectively at intervals lengthwise of the two and-of the lifter as shown in Fig. 4, and knotted at opposite ends as at 12 and 13. For protection against tearing of the pad and its enveloping fabric, the lacing holes in them are preferably grommetted as indicated at 14 in Fig. 10. The construction just described precludes injury of the materials from which the solvent is to be extracted incident to being tumbled about in the drum as the latter is rotated.

The drum 20 has a circular access opening 15 in its front wall 62 surrounded by a forwardly projecting peripheral flange IS, the latter being overlapped somewhat circumferentially by the inwardly projecting peripheral flange 44 around the loading opening 42 in the face wall 3i of the drum casing I! as shown in Fig. 4.

The drum 20 is supported by a rearwardly extending shaft 11, see Figs. 4, 8 and 9, which is socketed into a central boss 18 on the back end wall 63 of said drum and secured by headed screws 19 passed through the flange 8B thereon and threadcdly engaged in said boss. The shaft 11 revolves in spaced ball bearings 8| and 82 fitted into an outboard bearing bracket 83, which, by means of screw bolts 85, is secured to a mounting plate 86 welded into a central opening in the back wall 28 of the drum casing l9. The means for driving the drum 20 includes an electric motor 81 with an incorporated speed reducing gear unit 88 whereof the outward shaft 89 carries a sprocket 90 which is connected with a similar sprocket 9| on the drum shaft 11 by a chain 92. The motor 81 is supported by a bracket 93 bolted, with capacity for up and down adjustment, to upright stiffening ribs 94 welded to the back wall of the element 28 of the drum housing.

Communicating into the drum casing is at the left side in Figs, 5 and 6 somewhat below the horizontal plane through its axis by way of an opening 95 in the body shell I9, is an elbow 95 and fitting 91. At the bottom, this fitting 91 connects with a damper box 98 which is in turn connected to and communicative with one end 9911. of an angular tube 99 underlying said casin crosswise. The opposite complementally sloped end 99b of the tube 99 connects with another damper box I00 which, by way of a passage "H, is in communication with the bottom of a lint trap generally designated |02. Adjacent its top, the lint trap "I2 is in communication, by way of a lateral passage I03, with the pressure outlet of a lateral fan blower ||J4 whereof the inlet I05 is connected by means of a, flexible coupling tube I06 with the neck flange of an opening I01 in the body shell 25 of the drum casing l9 at the right side of the machine in Figs. 4 and 5 opposite the opening 95 previously referred to, and in substantially the horizontal plane of the latter. Disposed within end portions 39a and 99b of the tube 93 are heattight joint.

ing and cooling radiators I08 and I09 respectively. A heating medium such as hot water or steam is circulated through the radiator I08 by way of piping indicated at I I0, and cooling water through the radiator I09 by way of piping I I I. As shown, the ends 98a and 99b of the tube 58 are jacketed by sheathings H2 and H3 of asbestos or the like for increasing efliciency of the heating and cooling radiators I08 and I09 respectively. The heating and cooling radiators I08 and I08 are basically similar to those described in my above identified patent and function in the same way to effect condensation or precipitation.

The lint trap I02 is located within the right and offset portion of the main housing component 31 of the machine and is illustrated in the form of an upright cylindrical receptacle II5 having a removable lid I I5, see Figs. 5, 6 and 13. A gasket H1 located in a circular groove in the underside of the lid II8 seals air-tight against the top edge of the trap body II5, said gasket being normally compressed by tightening of the nut heads II8 on swing bolts II9 by which said cover is normally held in place.

The lint trap I02 is secured at the bottom to a bracket I by bolts I26, and said bracket is mounted on the super structure I6. Formed on the inside wall of receptacle I I 5, at the upper end thereof, is an inwardly projecting annular channel I21 in which is mounted a soft gasket I28 of rubber or the like, see Figs. 13 and 14. A wire mesh bag retainer I30 is attached to the inner edge of the annular channel I21 and is suspended within the receptacle I I5 in spaced relation to the side walls and bottom thereof. Suspended within the wire mesh bag retainer I30 is a removable fabric lint bag I33 which has the same general form as the wire retainer I30. The upper end of the lint bag I33 is hemmed and provided with a draw string I34 so that it can be tied onto bag holder I35 as shown in Figs. 13 and 14. The metallic bag holder I35 is cylindrical and has elongate openings I38 for the passage of an air current therethrough. It is attached to the lint trap cover I I8 by rivets I32. At the lower end of the bag holder I35 is a peripheral flange I31 which seats on the gasket I28 to make an air A second peripheral flange I38 is formed on the lower end of the bag holder I35 within the flange I31 for accommodating the draw string I34 of the lint bag I33. By tightening the nut heads II 8, it will be seen that pressure is applied to soft gasket I28 under the flange I31 through the connection of the bag holder I35 to the cover II5. A handle member I39 is attached to the top of the cover II5 to facilitate its removal.

To aiford easy access to the lint trap I02, an upwardly swinging door I is provided in the housing component 31 as shown in Fig. '7, the door being shown in its open position in dotted lines. The door I45 is hingedly attached to ledge member 4I at I45. Strengthening ribs I41 are provided on the underside of door I45, and a handle element I48 is provided on the outside and at the lower edge of door I45. In its closed position the door I 45 overlaps angle iron I49 attached to the inside of the housing component 31 as shown in Fig. 7. The door I45 is strengthened along its lower edge by angle iron I50. The levers I55 and I58 are pivotally attached to each other at I51 and to rib I41 and to bracket I58 at points I5I and I62 respectively. These levers I55 and I56 are 'operatively controlled by coil spring I59 in a manner readily understood so that the spring I59 positively holds door I45 closed in its closed position and open in its open position. The spring I59 is pivotally attached to lever I55 at I54 and anchored to bracket I58 at I 85. The operation of gins gear I 45 will be clear from the showing in The circulating fan I04 is connected at its discharge end to the lint trap I02 by a flexible conduit I03 as appears clearly in Fig. 3. The circulating fan I04 is mounted on bracket I81 which is bolted to flange 29. A drive motor I58 for fan I 04 is also mounted on the bracket I81, see Fig. 6.

The discharge end IOI of the lint trap I02 is connected by a clamped flexible coupling tube I 10 with damper box I00 which communicates with end 99b of tube 99. The damper box I 00 (see Fig. 11) has oppositely inclined end walls HI and I12 having rectangular openings I13 and I14 respectively therein. A damper plate I is provided in the damper box I00 for closing one or the other of the rectangular openings I13 and I14. A soft gasket I8I made of synthetic rubber or the like is mounted around the edges of the damper plate I80 in order to contact the inner faces of end walls In or I12 when operating to close the openings I18 or I14. This damper plate I 80 is mounted on one end of a curved damper arm I82 by means of a pin I83 secured by a cotter pin I84 as shown clearly in Figs. 11 and 12. The pin I83 extends through holes formed in two lugs I69 mounted centrally on the plate I80 and through a hole formed in the end of the damper arm I82. It will be noted that damper plate I80 is so mounted that a small amount of play is provided to permit self adjustment for a tight closure. The damper. arm I82 is mounted on operating shaft I 85, keyed thereto in order to be operatively responsive to the rotation of operating shaft I85. Operating shaft I85 is mounted in bearings I86, I81 and I88 formed in the bottom portion of the damper box I00 and held in place by collars I89 mounted on the shaft I85 on each side of bearing I88. The damper arm I82 operates within outlet elbow I90 which is bolted to the outside of the end wall I12, the outlet elbow I90 being formed at the bottom thereof toaccommodate the damper arm I82 as appears in Fig. 11. In order to prevent air leakage between operating shaft I85 and the bearings I81 and I88 a felt washer I9I is positioned around operating shaft I85 and held in close contact with the outside edge of the bearin I88 by a collar I92. The bearing I81 is provided to accommodate an end of the operating shaft I85 and is closed against air leakage by a plug I9Ia as shown in Fig. 12.

The operating shaft I85 is controlled by an operating lever I which, at one end thereof, is attached and keyed to said shaft. The other end of operating lever I95 is formed with a slotted yoke end I93 to which one end of adjustable tie rod I96 is pivotally connected at I91. Operating spring I98 has one end fastened to pivotal connection I91 and the other end anchored to bracket 200 mounted on frame member It in such fashion that the spring I98 will urge the plate I80 into closure engagement with either end wall I1I or I12 once the damper plate I80 has been moved into closure engagement with either of said walls I1I or I12.

At the end 99a of tube 99 is another damper box 98 which is similar in construction and operation to damper box I00 just described, except that no outlet elbow is provided like outlet elbow I90 attached to damper box I00. Damper box 98 also has a damper plate 20I mounted on damper arm 202, an operating shaft 209, an operating lever 204 and an operating spring 205. These elements just enumerated are the same as the elements described with reference to damper box Ill and therefore need not be further described In detail except that the operating lever 204 and operating spring 205 are positioned to operate oppositely to these same elements in damper box I00. Thus operating lever 204 extends upwardly from its pivotal connection, while operating lever I95 extends downwardly from its pivotal connection. In this way the movement of adjustable tie rod I96, which is pivotally connected at each end to operating levers I95 and 204, will cause the damper plates I80 and 20I to move in opposite directions as the adjustable tie rod I96 is moved under the control of operating lever 20! which is keyed to shaft 208 and which is pivotally connected with tie rod I96 at the central portion thereof, the shaft 208 being rotatably mounted in bracket 209 as will appear in Fig. 6. Operating lever 20! is manually controlled by a handle 209 shown in Figs. 1 and 15. Thus, if

adjustable tie rod I96 is moved to the right from the position shown in Fig. 6 to the position shown in Fig. 15, it will cause damper plates MI and I80 to swing toward each other and simultaneously close both ends 99a and 99b of tube 99 which will permit outside air to enter the circulating system through damper box 98 and be expelled from damper box I without passing through tube 99.

A water separator 2I5 is connected to the central andbottom portion of tube 99 at the bend thereof where a collecting chamber H6 is formed in the tube 99. This water separator 2I5 is of a conventional gravity type well known in the art and need not be described in detail here. The water is led off from the separator 2I5 by pipe 2Il, and the solvent is led off by pipe 2I8, see Fig. 5.

A clean-out opening is provided in the front of the apparatus, and this opening is covered by a removable cover 220 which is held in place by machine screws 2I9 as shown in Fig. 1. Also in Fig. 1, there are shown two tumbler switches 222 and 223 on the front face of the apparatus positioned on each side of the clean-out cover 220. The tumbler switch 223 controls motor 81 which rotates the drum 20. The tumbler switch 222 controls the operation of the fan motor I68 which rotates the circulating fan I04. A switch 224 is provided at the bottom edge of door 45 as shown in Figs. 1 and and connected electrically in the circuit controlling the operation of motor 81 by which drum is rotated. The actuating arm of door switch 224 engages the lower edge of door when the latter is in the closed position and by this engagement the circuit through the switch 224 is closed. When the door 45 is in the open position, door switch 224 is opened and the rotating drum 20 cannot be started as long as the door is open.

The circuits to both the motor 81 and motor I68 are both wired through an overload protection means of a type well-known to the art, and a reset button 225 is provided for this overload means as shown in Fig. 8 to reset the device after either motor has cooled to a sufficient degree for safe operation.

The operation of the apparatus is generally similar to that of the apparatus described in my above identified patent. In describing this operation, it will be assumed that condensing water and steam of suitable temperature and pressure have been supplied to the cooling and heating radiators I09 and I08 respectively, and that a batch of some 20 lbs. of dry clothing that has 5 been cleaned has been placed in the drum 20, and the door 95 is closed. The damper plates I80 and 20I are then positioned as shown in Fig. 5 by means of the damper operating handle 209. The air is then circulated by fan I04 which is controlled by tumbler switch 222, causing the air to circulate in a closed circuit through the heating radiator I08, the goods in the drum 20, the lint filter I02, and the cooling radiator E09. Issuing from the heater I08, the air warms up the goods and vaporizes solvent in them to an amount approaching saturation at the temperature of the air. The suction of the fan I04 is directly connected to the treating chamber in which drum 20 rotates and therefore loses none of its effectiveness as is the case when placed at some other point in the circulating system. Further, the discharge of the fan I04 is immediately connected to the lint filter I02 which directs the full and undiminished force of the discharge current immediately into the lint filter I02. It has been found that this particular positioning of the circulating fan I 04 is very advantageous to the more eflicient operation of this apparatus.

Passing through the filter I02 which removes all lint picked up by the air from the goods and through the cooling radiator I09, the air is chilled by the cooling radiator I 09 and the solvent vapor therein is condensed and runs down into the water and solvent separator 2I5 to be separated so that the water is drawn off through pipe 2 and the solvent through pipe 2I8. It should be noted here that due to the particular shape of the bent tube 99 and the positioning of the collecting chamber 2I6 at the bottom of the bend in the tube 99, it is possible for drainage to flow from both of the inclined portions of tube 99. As the circulating air leaves the cooling radiator I09, it carries with it a residue of the solvent which condenses in the front part of F that portion of tube 99 housing the heating radiator I08. Thus cooled and relatively free of solvent, the air is again reheated in the heating radiator for a repetition of the cycle. If the residue of solvent carried into the portion of the tube 99 housing the heating radiator I08 were not drained off promptly, it would be heated, volatilized and again condensed by cooling radiator I09 resulting in a great loss in efficiency of operation.

As soon as the maximum recovery of the solvent has been reached, the damper controlling handle 209 is operated to swing the damper plates 2M and I80 to the position of Fig. 15 at which both ends 99a and 99b of the tube 99 are closed 80 and fresh air is introduced into the rest of the circulating system through damper box 98 to be circulated through the clothes in the drum 20, passed through the lint separator I02 and discharged from the circulating system through damper box I00 and its outlet elbow I90. Under these conditions, unheated outside air will be blown through the clothes in drum 20 removing all susceptible traces of solvent odor within a minute in most cases. At the same time, air circulation through the tube 99 due to the chimney effect of the heating radiator (or in reverse, of the cooling radiator I09) will be prevented by the damper plates I80 and 20I which effectively close off the tube 99 from the open air and thereby prevent reevaporation and loss of condensate on the cooling surface of the cooling radiator I 09. 'I'hereupon the motor 81 and the fan I04 and the drum 2!] are stopped, the door 45 opened and the clothes, which are now completely free of all odor, removed from the apparatus.

A modified form of this apparatus might include a solenoid to automatically operate the damper mechanism by the use of a motor driven sequence timer with which the machine might be started after the clothes to be processed have been placed within it and the loading door closed. The timer then could be arranged to time the solvent recovery cycle and after the solvent recovery period, operate the damper mechanism through the solenoid, timing the deodorizing period and at the end of the cycle returning the damper mechanism to the solvent recovery position and stopping both the fan and the tub drive. The machine could then be unloaded manually, again reloaded and started manually by the operator.

From the above description it will be apparent that the apparatus herein described is characterized by a simplicity of construction and emciency of operation due to the particular arrangemeat 01' the elements involved in the system of air circulation. Reference is made to my patent identified above for further operational detail, particularly in regard to temperature conditions.

While the preferred embodiments and suggested modifications thereof have been described in some detail, it will be apparent to one skilled in the art that various changes and variations may be made therein without departing from the spirit of.the invention as hereinafter claimed.

Having thus described my invention, I claim:

1. In apparatus of the character described for recovering volatile solvents from material that has been treated therewith, a treating chamber having an access door, a rotating perforated tumbling drum for the material within said treating chamber, a rotary fan connected on its suction side directly to said treatin chamber, a lint filter having its intake directly connected to the discharge side of said fan, a tube having oppo positely and upwardly inclined end portions, a cooling radiator in one of said inclined end portions, a heating radiator in the other of said inclined end portions of said tube, a separator attached to the central and bottom portion of said tube between the said cooling and heating radiators, a damper box connecting said lint filter to one end of said tube and another damper box connected to the other end of said tube and leading into said treating chamber, movable damper plates adapted to close the ends of said tube and to open the damper boxes to the outside air when in one position and, when in another position, to close said damper boxes to the outside air and to open the ends of said tube, and means for moving said dampers simultaneously from one position to the other.

2. Solvent recovery apparatus according to claim 1, further including a surrounding housing with a door affording access to the lint trap.

3. In apparatus for recovering volatile solvents from material that has been treated therewith, a horizontal axis cylindric treating chamber with an access door; a perforate rotary tumbling drum for the material within the chamber; an external air flow conduit extending around the bottom of the chamber between an inlet opening and an outlet opening respectively at opposite sides of the chamber substantially at the level of its axis,

said conduit having a central section with end portions which are oppositely inclined upwardly; a circulating fan and a lint filter interposed between the central section or the conduit at the air outlet opening of the chamber; a condensate collecting trap connected to the central section of the conduit at its lowest point; a solvent vapor condenser within that end portion of the central conduit section connected to the fan and the lint filter; and a heating means within the other end portion of said central conduit section.

4. Solvent recovery apparatus according to claim 3, further including damper valve boxes in the conduit, one interposed between the fan and one end of the central section of the conduit containing the condenser and the other box between the other end 01' said section and the air inlet opening of the chamber, said boxes having ports respectively in communication with the opposite ends of said central section of the conduit and the outside atmosphere; a damper valve within each box movable between the two ports thereof and normally closed over that port which is in communication with the outside atmosphere; and means foractuating the two valves as and for the purpose set forth.

5. Solvent recovery apparatus according to claim 3, further including damper valve boxes in the conduit, one interposed between the fan and one end of the central section of the conduit containing the condenser, and the other box interposed between the other end of the central conduit sectidii and the air inlet opening of the chamber, said boxes having ports respectively in communication with the opposite ends of said central conduit section and the outside atmosphere; a damper valve within each box movablebetween the two ports thereof and normally closed over the port which is in communication with the outside atmosphere; and means for actuating the two valves as and for the .purpose set forth.

6. Solvent recovery apparatus according to claim 3, further including damper valve boxes in the conduit, one interposed between the fan and one end of the central section of the conduit con- I tainin the condenser, and the other box interposed between the other end of the central conduit section and the air inlet opening of the chamber, said boxes being triangular in shape with oppositely inclined sides having ports respectively in communication with the opposite ends of said central conduit section; a damper plate in each valve box pivoted at the vortex between the oppositely inclined sides of such box for movement between said ports; and means for actuating the two valves as and for the purpose set forth.

7. Solvent recovery apparatus according to claim 3, further including a casing with a semicyllndric upper section extending over the chamber, and a flat walled lower section below the level of the chamber axis with flanking portions extending beyond opposite sides of said chamber, by which the air fiow conduit, the fan, and the lint filter are enclosed.

8. Solvent recovery apparatus according to claim 3, further including a casing with a semicylindric upper section extending over the chamber, and a lower section below the level of the chamber axis with flanking portions extending beyond opposite sides of said chamber, by which the air flow conduit, the fan, the lint filter are enclosed, said lower casing section having an opening in the top of one of its flanking ends thereof through which access may be had to the fan and the lint filter. and a retractable closure for said opening.

CLARENCE 1". DINLEY.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Number 12 Name Date Bethke Feb. 10, 1931 Johnson Oct. 29, 1935 Purkett Dec. 31, 1935 Kelsey Oct. 26, 1937 Friedman Aug. 18, 1942 Davis Nov. 10, 194: Dinley Feb. 9, 1943 Breckenbridge Aug. 31, 1943 Downes Mar. 14, 1944 Hough Nov. 20, 1945 Davis Mar. 26, 1940 Vandegrii! July 2, 1946 Pugh Jan. 20, 1948 

